there's a lagging strand during DNA replication when the DNA synthesis becomes discontinuous.
Answer:
DNA strands have a directionality, and the different ends of a single strand are called the "3' end" and the "5' end." These terms refer to the carbon atom in ribose to which the next phosphate in the chain attaches. In addition to being complementary, the two strands of DNA are antiparallel: they are orientated in opposite directions. This directionality has consequences in DNA synthesis, because DNA polymerase can only synthesize DNA in one direction by adding nucleotides to the 3' end of a DNA strand.
in DNA replication, the leading strand is defined as the new DNA strand at the replication fork that is synthesized in the 5'→3' direction in a continuous manner.
on the other hand ,The lagging strand is the DNA strand at the opposite side of the replication fork from the leading strand, running in the 3' to 5' direction. Because DNA polymerase III cannot synthesize in the 3'→5' direction, the lagging strand is synthesized in short segments known as Okazaki fragments.
Explanation:
Ask them politely at a family gathering or in private
Get your doctor to contact your family for information
Give your best guess on all medical forms that ask
If you at any time need to obtain your family medical history, all you need to do is to contact your family doctor.
A family medical history has to do with information that partians to the medical records of your family. These records are usually available at the hoospital where you have your family doctor.
As such, if you at any time need to obtain your family medical history, all you need to do is to contact your family doctor.
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b. False
a.) DNA is a protein and RNA is a nucleic acid.
b.) DNA uses deoxyribose and RNA uses ribose.
c.) DNA has adenine and RNA has thymine.
d.) DNA has thymine and RNA has uracil.
Answer:
The cytochrome b6f is a large multisubunit protein, which accepts electrons from the PLASTOHYDROQUINONE. One electron moves linearly toward PLASTOCYANIN , while the other goes through a cyclic process, which effectively pumps more PROTONS into the thylakoid lumen.
Explanation:
Cytochrome b6f plays a very important role in photosynthesis reaction in plants.
Cytochrome b6f exists as a dimer and it is an multisubunit protein that can be found in the chloroplasts of plants.
Cytochrome b6f speeds up the movement of electrons plastohydroquinone to plastocyanin during photosynthesis.
Answer:
The cytochrome b6f is a large multi-subunit protein, which accepts electrons from the plastohydroquinone.
One electron moves linearly toward plastocyanin while the other goes through a cyclic process, which effectively pumps more protons into the thylakoid lumen.
Explanation:
The cytochrome b6f is distributed among both grana and stroma thylakoids equally. They are usually large and embedded in the membrane.